Method for remediating contaminated material

ABSTRACT

A method for removing contaminating material from a combination material containing the contaminating material and a reusable material includes placing the combination material in an enclosed perforated container, placing the container in in a tank having a cleaning fluid with microorganisms therein capable of consuming at least a portion of the contaminating material, whereby the microorganisms will cause separation of the contaminating material from the reusable material and the cleaning fluid and will cause the contaminating material to rise to the top surface of the cleaning fluid, skimming off the risen contaminating material from the top surface of the fluid, leaving the container in the fluid until the contaminating material is separated from the reusable material, and removing the container from the tank with only the reusable material left therein, the contaminating material being substantially removed therefrom.

This is a divisional of application Ser. No. 08/450,140 filed on May 26, 1995 Pat. No. 5,589,004 which is a divisional of Ser. No. 08/283,611 filed Aug. 1, 1994, now Pat. No. 5,492,139 issued Feb. 20,1996.

BACKGROUND OF THE INVENTION

The present invention relates to a method and apparatus for remediating contaminated material.

Many materials and objects exposed to oil, PCB, and other hydrocarbon contaminates can be reused if an appropriate cleaning process is provided. As used herein, the term "contaminated materials"can include any material contaminated by the above contaminates, whether that material be granulated (such as floor dry materials or sweeping compounds), mats, rubber beads, air filters for waste centers, used oil filters, or any other material or object which during use is capable of absorbing contaminates.

Cleaning fluids are available which contain various chemicals, emulsifiers, and other cleaning agents which are capable of separating the hydrocarbon contaminates from the objects or materials to be cleaned. Agents also are known which contain microorganisms capable of consuming the contaminates.

However, there is a need for equipment and for a method of operating the equipment which provides satisfactory use of these various cleaning agents to remove the contaminates from the reusable materials so that the reusable materials can be recycled.

Therefore a primary object of the present invention is the provision of an improved method and apparatus for remediating contaminated material.

A further object of the present invention is the provision of a method and apparatus which will permit the remediating of various contaminated materials or objects of various shapes and sizes.

A further object of the present invention is the provision of a method and apparatus for collecting the contaminates after they have been removed from the reusable materials.

A further object of the present invention is the provision of an apparatus and method which are efficient in operation, durable in use, and economical to manufacture.

SUMMARY OF THE INVENTION

The method of the present invention removes a contaminated material from a combination material containing the contaminating material and a reusable material. The method comprises placing the combination material in a tank having a cleaning fluid therein capable of separating the contaminating material from the reusable material. The cleaning fluid is circulated around the combination material within the tank so that the cleaning fluid will cause the contaminating material to separate from the reusable material and will cause at least some of the contaminating material to float on the top surface of the cleaning fluid within the tank. The method further comprises drawing off the contaminated material which is floating on the top surface of the cleaning fluid and removing it from the tank.

The apparatus of the present invention includes a tank having a plurality of side walls and a bottom wall enclosing a cleaning chamber for containing the cleaning fluid. A skimming opening is provided in one of the side walls of the tank and is positioned a first distance above the bottom wall. The skimming opening provides fluid communication from within the cleaning chamber to outside the cleaning chamber. A fluid circulation manifold is positioned adjacent the bottom wall of the tank within the cleaning chamber. The manifold has a plurality of spray openings therein for introducing fluid into the cleaning chamber. A fluid outlet opening is provided in one of the side walls and bottom wall and is connected to a recirculation pump by means of a conduit system. The conduit system connects the fluid outlet opening to the recirculation pump and connects the recirculation pump to the fluid circulation manifold. The pump then causes the cleaning fluid within the tank to be circulated from the outlet opening, to the pump and from the pump to the manifold where the fluid is recirculated into the cleaning chamber through the spray holes in the manifold. A contaminant container is positioned outside the fluid chamber and in fluid communication with the skimming opening for receiving the contaminating material which exits through the skimming opening in the tank wall.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded pictorial view of the apparatus of the present invention.

FIG. 2 is a sectional view of the apparatus of FIG. 1.

FIG. 3 is a schematic view of a rotary dryer for drying the reusable material after it has been cleaned.

FIG. 4 is a sectional view taken along line 4--4 of FIG. 3.

DETAILED DESCRIPTION OF THE DRAWINGS

Referring to the drawings, the numeral 10 generally designates a cleaning apparatus of the present invention. Apparatus 10 includes a tank 12 having a cleaning chamber 13 therein. A basket 14 is adapted to be placed within the cleaning chamber 13, and an agitator motor 16 is adapted to be fitted over an agitator (to be described hereinafter) within the basket 14. Apparatus 10 also includes a recirculating pump 18 and an electrical heating element 20. A gas heater may also be used instead of an electrical heating element 20.

Tank 12 includes two side walls 22, 24 two end walls 26, 28 and a bottom wall 30. An elongated horizontal skimming slot 32 is provided in end wall 28. Outside end wall 28 is a skimming container 33 having a skimming chamber 34 which in fluid communication with the skimming slot 32. Skimming chamber 34 includes at its lower end an outlet 36 having a valve 38 which may be opened or closed to remove the contents of the skimming chamber 34.

The end wall 26 includes a rectangular outlet opening 40 therein which is covered with a filter 42 so as to permit fluid within the cleaning chamber 13 to pass through the outlet opening 40, with the filter 42 filtering out any materials in the fluid.

A recirculating housing 44 is mounted outside end wall 26 and forms a recirculating chamber 46 which is in communication with and outside the outlet opening 40 in wall 26. At the lower end of recirculating chamber 46 is a conduit connection 48 which is adapted to be connected to a pump inlet conduit 50. Pump inlet conduit 50 is connected to the inlet of pump 18, and a Y shaped pump outlet conduit 52 is connected to the outlet of pump 18. An air stand pipe 54 having an air nipple 56 on the upper end thereof is connected to and in communication with the Y shaped pump outlet conduit 52.

Within the cleaning chamber 13 of tank 12, and extending in parallel relation to one another along the bottom wall 30 thereof, are a pair of recirculation pipes or manifolds 58, 60 each of which include a plurality of spray holes 62 therein. Manifolds 58, 60 include pipe connections 64, 66 respectively which extend through the end wall 26 of the tank 12 and which are connected to the two Y ends of the pump outlet conduit 52.

Bottom wall 30 of the tank 12 includes a drain hole 68 which is connected to a drain pipe 70 having a valve 72 therein for draining the contents of cleaning chamber 30. Mounted within the cleaning chamber 13 and extending inwardly from each of the side walls 22, 24 and the ends walls 26, 28 are a plurality of support flanges 74. Flanges 74 are spaced approximately four inches above the bottom wall 30 and are intended to provide support for the basket 14 when the basket 14 is placed within the cleaning chamber 13.

A control 76 is an electrical box containing a master switch 77 and several switches and timeres which are connected by a control cable 78 to motors 16, 18 and heating element 20. Heating element 20 is located inside washing chamber 13 and is attached to sidewall 26.

Basket 14 includes a cylindrical basket wall 80 having a pair of lifting hooks 81 connected thereto. The top wall of basket 14 is provided by a first screen 82 and a second screen 84. These two screens are of two different sized mesh and intended to provide fluid communication into a basket compartment 83 within basket 14. The bottom wall of the basket 14 is provided by first and second screens 86, 88 which are similar to screens 82, 84. A support bar 90 extends diametrically across the upper end of the basket 14 and includes a shaft opening 91 therein. Basket 14 is intended to contain contaminated material 92 which may be granulated material or objects having various shapes and sizes.

An agitator 94 includes a vertical agitator shaft 96 having a horizontal agitator head 98 secured to its lower end and having a splined receptacle 100 at its upper end.

Motor 16 is supported by a motor support frame 102 having a pair of parallel elongated bars 104, 106 which are joined by a web plate 108. Motor 16 includes a downwardly extending splined motor shaft 110 which is adapted to mate within the splined receptacle 100 so as to provide driving connection between the motor 16 and the agitator 94.

In operation, the cleaning chamber 13 is filled with a washing or cleaning fluid 112. Numerous cleaning fluids are known in the art for removing and separating petrol chemical products from objects to be cleaned. A preferred cleaning material for use in the present invention is as follows:

    ______________________________________                                         Percentage By Volume                                                                        Ingredient Description                                            ______________________________________                                         16%          Alcohol                                                           70%          Water (deionized or distilled)                                    10%          An emulsifier manufactured by CRC                                              Laboratories, Inc., 706 South Seventh                                          Street, Delano, Minnesota and sold under                                       the trademark CLEAN-WISE.                                         1/2%         Nutrients selected from phosphorus,                                            nitorgen, sulfer, lime and/or potassium.                           1%          A cultured bacterial material containing                                       microorganisms for consuming petro chemical                                    products, sold by B&S Research, Inc., 4345                                     Hwy. 21, Embarrass, MN 55732 under the                                         trade designation B & S Industrial.                               2 1/2%       A catalyst for use with the above cultured                                     bacteria material and sold by B&S Research,                                    Inc., 4345 Hwy. 21, Embarrass, MN 55732                                        under the trade designation B & S                                              Industrial Achieve.                                               ______________________________________                                    

Other cleaning fluids may be used without detracting from the invention.

The material or objects to be cleaned are placed within the basket 14 and the basket 14 is placed within the cleaning chamber 13 so that it rests upon the flanges 74 in spaced relation above the recirculation manifolds 58, 60. The heater 20 is activated to cause the fluid within the tank to be heated to the appropriate temperature for causing the maximum vitality and activity of the microorganisms within the fluid. The preferred range of temperature for the fluid should be between 80° and 100° F., and the preferred temperature is approximately 90 F.

The pump 18 is then activated which causes fluid to be drawn from recirculating chamber 46 into the pump and forced outwardly through the spray holes 62 in the manifolds 58, 60.This causes the fluid within the chamber 13 to be circulated and bubbled around and through the materials 92 within the basket 14 thereby exposing the materials 92 to the maximum amount of fluid and microorganisms as possible. As the petrochemicals or oils are separated from the materials to be cleaned, an oil or contaminant layer 114 forms on the top surface of the cleaning fluid. The level of the cleaning fluid is kept adjacent to the skimming slot 32 so that as oil or other contaminants form on the top of the cleaning fluid they are skimmed off through the skimming slot 32 and into the skimming chamber 34. This-causes a contaminant reservoir 116 to accumulate within the skimming chamber 34.

The microorganisms contained within the cleaning fluid 112 are aerobic microorganisms which require oxygen. Therefore in order to facilitate the functioning of the microorganisms, the air nipple 56 of stand pipe 54 is connected to a source of pressurized air or oxygen and oxygen is introduced into the pump outlet conduit 52 so as to become disbursed within the fluid being delivered to the two recirculation manifolds 58, 60. Thus as the fluid circulates out through the spray holes 62 into the cleaning chamber 13, air or oxygen is also introduced into the fluid within the chamber 13, and this air or oxygen helps to sustain the microorganisms within the cleaning fluid.

When the materials within the basket 14 have been sufficiently cleaned, the basket is removed from the cleaning chamber 13 and the contents 92 are placed within a dryer such as the rotary dryer 119 shown in FIG. 3. Dryer 119 includes a heating drum 120 having a feed hopper 122 at one end and having heating coils 124 at the opposite ends. Air is introduced in the direction shown by the arrows in FIG. 3, but it flows in a direction opposite to the flow of the reusable material 128 within the drum 120. The drum 120 includes a plurality of fins 130 which grab the material 128 and cause it to tumble within the rotating drum 120. The drum is preferably tilted so as to cause the material 128 to progress from hopper 122 toward a outlet opening 126 at the opposite end of the dryer. The material exits outlet 126 it. is dried and ready for reuse.

While the particular drying process shown in FIGS. 3 and 4 may be used for granulated materials, other drying methods may be used without detracting from the invention. Also some objects are not amenable to being dried within a rotating dryer, and in such cases other drying methods may be used.

In the drawings and specification there has been set forth a preferred embodiment of the invention, and although specific terms are employed, these are used in a generic and descriptive sense only and not for purposes of limitation. Changes in the form and the proportion of parts as well as in the substitution of equivalents are contemplated as circumstances may suggest or render expedient without departing from the spirit or scope of the invention as further defined in the following claims. 

What is claimed is:
 1. A method for removing contaminating material from a combination material containing said contaminating material and a reusable material comprising:placing said combination material within an enclosed container having a plurality of openings therein sized to permit fluid to pass therethrough while at the same time preventing said reusable material from passing therethrough; placing said container in a cleaning fluid within a tank, said cleaning fluid having microorganisms therein capable of consuming at least a portion of said contaminating material, said microorganisms coming into contact with said contaminating material within said container, whereby said microorganisms will cause a separation of a portion of said contaminating material from said reusable material and said cleaning fluid and will cause a portion of said contaminating material to rise to the top surface of said cleaning fluid within said tank; and skimming off said contaminating material which has risen to said top surface of said cleaning fluid; leaving said enclosed container within said cleaning fluid in said tank until said contaminating material is substantially separated from said reusable material; removing said enclosed container from said tank with substantially only said reusable material therein, said contaminating material being substantially removed therefrom.
 2. A method according to claim 1 and further comprising a step of drying said reusable material after removal of said contaminating material therefrom.
 3. A method according to claim 1 and further comprising agitating the combination material within said container so as to cause said combination material to tumble within said container.
 4. A method according to claim 1 wherein said microorganisms are aerobic, said method further comprising bubbling oxygen through said cleaning fluid within said tank while said container is within said tank so as to facilitate the ability of said aerobic microorganisms to separate said contaminating material from said reusable material. 